Terminal device, base station device, and wireless communication system

What is claimed is: 1 . A terminal device, comprising: communication circuitry that carries out first data communication with a base station device by using a first beam and then receives, by using a reception beam, a plurality of first signals transmitted by the base station device by using respective transmission beams; and determination circuitry that calculates a reception quality of the plurality of first signals and determines a second beam of which the reception quality is the highest among the plurality of transmission beams, wherein the communication circuitry transmits a feedback signal including information indicating the second beam to the base station device by using the first beam and starts second data communication with the base station device by using the first beam in a case in which the communicator receives, from the base station device, a response signal indicating that the feedback signal being received by the base station device. 2 . The terminal device according to claim 1 , wherein the first signal is included in a beacon that the base station device transmits to the terminal device. 3 . The terminal device according to claim 1 , wherein the determination circuitry determines whether a determination result in the first data communication is the second beam, and wherein the communication circuitry starts the second data communication by using the first beam without transmitting the feedback signal in a case in which the determination circuitry result in the first data communication is the second beam. 4 . The terminal device according to claim 3 , wherein, in a case in which the communication circuitry receives, by using the first beam, a plurality of third signals transmitted by the base station device by using respective transmission beams after the second data communication, the determination circuitry determines whether a reception quality of the third signals is no lower than a threshold value, and wherein, in a case in which the reception quality of the third signals is no lower than the threshold value, the communication circuitry starts third data communication after the second data communication with the base station device. 5 . A base station device, comprising: a controller that generates a plurality of first signals; and a communication circuitry that carries out first data communication with a terminal device that uses a first beam and then transmits, to the terminal device, the plurality of first signals by using respective transmission beams, wherein the plurality of transmission beams include a second beam of which reception quality is the highest in a case in which the first signals are received with the use of a reception beam of the terminal device, and wherein, in a case in which a feedback signal including the second beam is received from the terminal device, the communication circuitry transmits a response signal to the terminal device by using the second beam and starts second data communication with the terminal device. 6 . The base station device according to claim 5 , wherein the first signal is included in a beacon transmitted to the terminal device. 7 . A wireless communication system, comprising: a base station device that includes a controller that generates a plurality of first signals and a second communication circuitry that transmits the plurality of first signals by using respective second transmission beams; and a terminal device that includes a first communication circuitry that carries out first data communication with the base station device by using a first beam and then receives the plurality of first signals by using a reception beam and a first determination circuitry that calculates a reception quality of the plurality of first signals and determines a second beam of which the reception quality is the highest among the plurality of second transmission beams, wherein the first communication circuitry transmits a first feedback signal including information indicating the second beam to the base station device by using the first beam, wherein, in a case in which the first feedback signal is received, the second communication circuitry transmits a first response signal to the terminal device by using the second beam, and wherein, in a case in which the first response signal is received from the base station device by using the first beam, the first communication circuitry starts second data communication with the base station device after the first data communication. 8 . The wireless communication system according to claim 7 , wherein, in a case in which the first response signal is not received, the first communication circuitry transmits, to the base station device, a plurality of third signals including information indicating the second beam by using respective first transmission beams, wherein the base station device includes a second determination circuitry that calculates a reception quality of the plurality of third signals received from the terminal device and determines a third beam of which the reception quality is the highest among the plurality of first transmission beams, wherein the second communication circuitry transmits a second feedback signal including information indicating the third beam to the terminal device by using the second beam, wherein, in a case in which the second feedback signal is received, the first communication circuitry transmits a second response signal to the base station device by using the third beam, and wherein in a case in which the second response signal is received from the terminal device, the second communication circuitry starts third data communication with the terminal device. 9 . The wireless communication system according to claim 7 , wherein the first determination circuitry determines whether a determination result in the first data communication is the second beam, and wherein, in a case in which the determination result in the first data communication is the second beam, the first communication circuitry starts the second data communication by using the first beam without transmitting the first feedback signal. 10 . The wireless communication system according to claim 9 , wherein the second communication circuitry transmits each of a plurality of fourth signals by using each of the plurality of second transmission beams after the second data communication, wherein the first communication circuitry receives the plurality of fourth signals by using the first beam, wherein the first determination circuitry determines whether the reception quality of the fourth signals is no lower than a threshold value, and wherein, in a case in which the reception quality of the fourth signals is no lower than the threshold value, the first communication circuitry starts fourth data communication with the base station device. 11 . The wireless communication system according to claim 10 , wherein, in a case in which the reception quality of the fourth signals is lower than the threshold value, the first communication circuitry transmits, to the base station device, a plurality of fifth signals by using the respective first transmission beams, wherein the base station device includes a second determination circuitry that calculates a reception quality of the plurality of fifth signals received from the terminal device and determines a fourth beam of which the reception quality is the highest among the plurality of first transmission beams, wherein the second communication circuitry transmits a third feedback signal including information indicating the fourth beam to the terminal device by using the second beam, wherein, in a c